Elsevier

Developmental Biology

Volume 77, Issue 2, 15 June 1980, Pages 463-479
Developmental Biology

Full paper
Varying patterns of protein synthesis in Drosophila during heat shock: Implications for regulation

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Abstract

The heat-shock response of Drosophila involves the vigorous induction of a small number of new messenger RNAs and proteins as well as the repression of most preexisting RNA and protein synthesis. The experiments presented here characterize the kinetics of messenger RNA and protein synthesis at different temperatures and the patterns of induction under a variety of culture conditions. In addition to providing practical information for further studies of the heat-shock response, the data provide some valuable insights into the nature of the response. In particular, the patterns of induction and repression are not simple functions of the degree of temperature elevation, but vary strikingly in different media and depend strongly upon the speed of the temperature increase. Several heat-shock proteins are shown to have very individual induction characteristics with respect to the temperatures at which they are maximally induced, the range of temperatures over which they are synthesized, and the kinetics of their induction. Thus, although this system has often been viewed as a simple, coordinate induction, it now appears that the various heat-shock genes can be, to a rather considerable extent, regulated independently of one another. The evidence further suggests that the patterns of protein synthesis in heat-shocked cells are regulated by mechanisms which act at several different levels of gene expression.

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    This work was supported by a research grant from the National Institute of Health, General Medical Sciences Division.

    1

    Previous publications by this author were published under the name Susan McKenzie.

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